Journal article
Bone Geometry Is Altered by Follistatin-Induced Muscle Growth in Young Adult Male Mice
ASM Chan, NE McGregor, IJ Poulton, JP Hardee, EHJ Cho, TJ Martin, P Gregorevic, NA Sims, GS Lynch
Jbmr Plus | WILEY | Published : 2021
DOI: 10.1002/jbm4.10477
Abstract
The development of the musculoskeletal system and its maintenance depends on the reciprocal relationship between muscle and bone. The size of skeletal muscles and the forces generated during muscle contraction are potent sources of mechanical stress on the developing skeleton, and they shape bone structure during growth. This is particularly evident in hypermuscular global myostatin (Mstn)-null mice, where larger muscles during development increase bone mass and alter bone shape. However, whether muscle hypertrophy can similarly influence the shape of bones after the embryonic and prepubertal period is unknown. To address this issue, bone structure was assessed after inducing muscle hypertro..
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Awarded by University of Melbourne
Funding Acknowledgements
This project was supported in part through a project grant from Australia's National Health and Medical Research Council (Grant No. GNT1124474). JPH was supported by a McKenzie Fellowship from the University of Melbourne. PG and NAS were supported by senior research fellowships from the NHMRC. The authors thank Dr. Hong Wei Qian for the production of the AAV6 viral vectors, Dr. Rachel Thomson for assistance in administering the intramuscular injections, and Jessie Xue and Adam Hagg for their assistance with dissections.